A zoospore is a motile asexual spore that uses a flagellum for locomotion in aqueous or moist environments.[1] Also called a swarm spore, these spores are created by some protists, bacteria, and fungi to propagate themselves. Certain zoospores are infectious and transmittable,[1] such as Batrachochytrium dendrobatidis, a fungal zoospore that causes high rates of mortality in amphibians.

Heterokont zoospore of Saprolegnia with tinsel and whiplash flagella.

Diversity edit

General morphology edit

Zoospores are composed of a microtubular cytoskeleton base which extends from the base of the flagellum. The complexity and structure of this cytoskeleton is variable and is largely dependent on volume and size.[2] One common feature of zoospores is their asymmetrical shape; a result of the ventral grove housing the flagella base. Certain zoospores progress through different phases, the first phase commonly referred to as 'the initial'.[2] Others form cysts that vary tremendously in volume (14-4905 cubic micrometers) and shape, each with distinctive hair structures.[2]

Flagella types edit

Zoospores may possess one or more distinct types of flagella - tinsel or "decorated", and whiplash, in various combinations.

  • Tinsellated (straminipilous[3]) flagella have lateral filaments known as mastigonemes perpendicular to their main axis, which allow for more surface area, and disturbance of the medium, giving them the property of a rudder, that is, used for steering.
  • Whiplash flagella are straight, to power the zoospore through its medium. Also, the "default" zoospore only has the propelling, whiplash flagella.

Both tinsel and whiplash flagella beat in a sinusoidal wave pattern, but when both are present, the tinsel beats in the opposite direction of the whiplash, to give two axes of control of motility.

Attachment to the base of the zoospore is variable between taxa and may help with identification of species.[2]

Morphological types edit

 
Figure 1. Zoospore types. The arrow indicates direction of movement.

In eukaryotes, the four main types of zoospore are[3] illustrated in Fig. 1 at right:

  1. Posterior whiplash flagella are a characteristic of the Chytridiomycota, and a proposed uniting trait of the opisthokonts, a large clade of eukaryotes containing animals and fungi. Most of these have a single posterior flagellum (Fig. 1a), but the Neocallimastigales have up to 16 (Fig. 1b).
  2. Anisokonts are biflagellated zoospores with two whip types flagella of unequal length (Fig. 1c). These are found in some of the Myxomycota and Plasmodiophoromycota.
  3. Zoospores with a single anterior flagellum (Fig. 1d) of the tinsel type are characteristic of Hyphochytriomycetes.
  4. Heterokont are biflagellated zoospores (Fig. 1e, f) with both whiplash (smooth) and tinsel type (fine outgrowths called mastigonemes) flagella attached anteriorly or laterally. These zoospores are characteristic of the Oomycota and other heterokonts.

Zoosporangium edit

 
Zoosporangia and zoospores of Phytophthora agathidicida

A zoosporangium is the asexual structure (sporangium) in which the zoospores develop in plants, fungi, or protists (such as the Oomycota). Developing sporangia go through a process of cleaving in which protein kinase induces the sporangial cytoplasm to split and release the various zoospores.[4] Release of the spores can occur either inside of the zoosporangium (intrasporangial zoosporogenesis) or exteriorly (extrasporangial zoosporogenesis).[2] Spores are absorb water and travel through the cell membrane for excretion.[2]


Infectivity edit

Different fungal zoospores may infect different taxa of organisms. Due to zoospores' aquatic lifestyle,[1] fish and amphibians are ideal hosts. Some are know to colonize on exposed injuries in fish which may cause epidermal damage, leading to death in certain cases.[5] Others may utilize species of frogs (such as Bufo Marinus and Rana catesbieana) as carriers, allowing extended ranges of travel.[1]

See also edit

References edit

  1. ^ a b c d O’Rourke, Dorcas P.; Rosenbaum, Matthew D. (2015), "Biology and Diseases of Amphibians", Laboratory Animal Medicine, Elsevier, pp. 931–965, retrieved 2023-11-08
  2. ^ a b c d e f Sandle, T. (2014-01-01), Batt, Carl A.; Tortorello, Mary Lou (eds.), "FUNGI | Classification of the Peronosporomycetes", Encyclopedia of Food Microbiology (Second Edition), Oxford: Academic Press, pp. 44–53, ISBN 978-0-12-384733-1, retrieved 2023-11-08
  3. ^ a b Webster, John; Weber, Roland (2007). Introduction to Fungi (3rd ed.). Cambridge: Cambridge University Press. pp. 23–24. ISBN 9780521014830.
  4. ^ Judelson, Howard S.; Roberts, Samuel (October 1, 2002). "Novel Protein Kinase Induced during Sporangial Cleavage in the Oomycete Phytophthora infestans". Eukaryotic Cell. 1 (5): 687–695. doi:10.1128/EC.1.5.687-695.2002. ISSN 1535-9778. PMC 126747.
  5. ^ Fox, James G.; Anderson, Lynn C.; Otto, Glen M.; Pritchett-Corning, Kathleen R.; Whary, Mark T. (2015). Laboratory animal medicine. American College of Laboratory Animal Medicine series. American college of laboratory animal medicine (3rd ed.). Amsterdam: Elsevier/Academic Press. ISBN 978-0-12-409527-4.
  • Alexopoulos, C. J.; Mims, Charles W.; Blackwell, M.; et al. (2004). Introductory Mycology (4th ed.). Hoboken, New Jersey: John Wiley and Sons. ISBN 0-471-52229-5.

External links edit